Structure and Function of an Elongation Factor P Subfamily in Actinobacteria

Bruno Pinheiro; Christopher M. Scheidler; Pavel Kielkowski; Marina Schmid; Ignasi Forné; Suhui Ye; Norbert Reiling; Eriko Takano; Axel Imhof; Stephan A. Sieber; Sabine Schneider; Kirsten Jung

doi:10.1016/j.celrep.2020.03.009

Structure and Function of an Elongation Factor P Subfamily in Actinobacteria

Bruno Pinheiro, Christopher M. Scheidler, Pavel Kielkowski, Marina Schmid, Ignasi Forné, Suhui Ye, Norbert Reiling, Eriko Takano, Axel Imhof, Stephan A. Sieber, Sabine Schneider, Kirsten Jung

Chair of Organic Chemistry II

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Translation of consecutive proline motifs causes ribosome stalling and requires rescue via the action of a specific translation elongation factor, EF-P in bacteria and archaeal/eukaryotic a/eIF5A. In Eukarya, Archaea, and all bacteria investigated so far, the functionality of this translation elongation factor depends on specific and rather unusual post-translational modifications. The phylum Actinobacteria, which includes the genera Corynebacterium, Mycobacterium, and Streptomyces, is of both medical and economic significance. Here, we report that EF-P is required in these bacteria in particular for the translation of proteins involved in amino acid and secondary metabolite production. Notably, EF-P of Actinobacteria species does not need any post-translational modification for activation. While the function and overall 3D structure of this EF-P type is conserved, the loop containing the conserved lysine is flanked by two essential prolines that rigidify it. Actinobacteria's EF-P represents a unique subfamily that works without any modification.

Original language	English
Pages (from-to)	4332-4342.e5
Journal	Cell Reports
Volume	30
Issue number	13
DOIs	https://doi.org/10.1016/j.celrep.2020.03.009
State	Published - 31 Mar 2020

Keywords

Corynebacterium glutamicum
EF-P
Mycobacterium tuberculosis
Streptomyces coelicolor
post-translational modification
translation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.celrep.2020.03.009

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title = "Structure and Function of an Elongation Factor P Subfamily in Actinobacteria",

abstract = "Translation of consecutive proline motifs causes ribosome stalling and requires rescue via the action of a specific translation elongation factor, EF-P in bacteria and archaeal/eukaryotic a/eIF5A. In Eukarya, Archaea, and all bacteria investigated so far, the functionality of this translation elongation factor depends on specific and rather unusual post-translational modifications. The phylum Actinobacteria, which includes the genera Corynebacterium, Mycobacterium, and Streptomyces, is of both medical and economic significance. Here, we report that EF-P is required in these bacteria in particular for the translation of proteins involved in amino acid and secondary metabolite production. Notably, EF-P of Actinobacteria species does not need any post-translational modification for activation. While the function and overall 3D structure of this EF-P type is conserved, the loop containing the conserved lysine is flanked by two essential prolines that rigidify it. Actinobacteria's EF-P represents a unique subfamily that works without any modification.",

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AU - Scheidler, Christopher M.

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AU - Forné, Ignasi

AU - Ye, Suhui

AU - Reiling, Norbert

AU - Takano, Eriko

AU - Imhof, Axel

AU - Sieber, Stephan A.

AU - Schneider, Sabine

AU - Jung, Kirsten

PY - 2020/3/31

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N2 - Translation of consecutive proline motifs causes ribosome stalling and requires rescue via the action of a specific translation elongation factor, EF-P in bacteria and archaeal/eukaryotic a/eIF5A. In Eukarya, Archaea, and all bacteria investigated so far, the functionality of this translation elongation factor depends on specific and rather unusual post-translational modifications. The phylum Actinobacteria, which includes the genera Corynebacterium, Mycobacterium, and Streptomyces, is of both medical and economic significance. Here, we report that EF-P is required in these bacteria in particular for the translation of proteins involved in amino acid and secondary metabolite production. Notably, EF-P of Actinobacteria species does not need any post-translational modification for activation. While the function and overall 3D structure of this EF-P type is conserved, the loop containing the conserved lysine is flanked by two essential prolines that rigidify it. Actinobacteria's EF-P represents a unique subfamily that works without any modification.

AB - Translation of consecutive proline motifs causes ribosome stalling and requires rescue via the action of a specific translation elongation factor, EF-P in bacteria and archaeal/eukaryotic a/eIF5A. In Eukarya, Archaea, and all bacteria investigated so far, the functionality of this translation elongation factor depends on specific and rather unusual post-translational modifications. The phylum Actinobacteria, which includes the genera Corynebacterium, Mycobacterium, and Streptomyces, is of both medical and economic significance. Here, we report that EF-P is required in these bacteria in particular for the translation of proteins involved in amino acid and secondary metabolite production. Notably, EF-P of Actinobacteria species does not need any post-translational modification for activation. While the function and overall 3D structure of this EF-P type is conserved, the loop containing the conserved lysine is flanked by two essential prolines that rigidify it. Actinobacteria's EF-P represents a unique subfamily that works without any modification.

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KW - Streptomyces coelicolor

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Structure and Function of an Elongation Factor P Subfamily in Actinobacteria

Abstract

Keywords

UN SDGs

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